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Raaymakers, B W; Jürgenliemk-Schulz, I M; Bol, G H; Glitzner, M; Kotte, A N T J; van Asselen, B; de Boer, J C J; Bluemink, J J; Hackett, S L; Moerland, M A; Woodings, S J; Wolthaus, J W H; van Zijp, H M; Philippens, M E P; Tijssen, R; Kok, J G M; de Groot-van Breugel, E N; Kiekebosch, I; Meijers, L T C; Nomden, C N; Sikkes, G G; Doornaert, P A H; Eppinga, W S C; Kasperts, N; Kerkmeijer, L G W; Tersteeg, J H A; Brown, K J; Pais, B; Woodhead, P; Lagendijk, J J W
Physics in medicine & biology, 11/2017, Volume: 62, Issue: 23Journal Article
The integration of 1.5 T MRI functionality with a radiotherapy linear accelerator (linac) has been pursued since 1999 by the UMC Utrecht in close collaboration with Elekta and Philips. The idea behind this integrated device is to offer unrivalled, online and real-time, soft-tissue visualization of the tumour and the surroundings for more precise radiation delivery. The proof of concept of this device was given in 2009 by demonstrating simultaneous irradiation and MR imaging on phantoms, since then the device has been further developed and commercialized by Elekta. The aim of this work is to demonstrate the clinical feasibility of online, high-precision, high-field MRI guidance of radiotherapy using the first clinical prototype MRI-Linac. Four patients with lumbar spine bone metastases were treated with a 3 or 5 beam step-and-shoot IMRT plan. The IMRT plan was created while the patient was on the treatment table and based on the online 1.5 T MR images; pre-treatment CT was deformably registered to the online MRI to obtain Hounsfield values. Bone metastases were chosen as the first site as these tumors can be clearly visualized on MRI and the surrounding spine bone can be detected on the integrated portal imager. This way the portal images served as an independent verification of the MRI based guidance to quantify the geometric precision of radiation delivery. Dosimetric accuracy was assessed post-treatment from phantom measurements with an ionization chamber and film. Absolute doses were found to be highly accurate, with deviations ranging from 0.0% to 1.7% in the isocenter. The geometrical, MRI based targeting as confirmed using portal images was better than 0.5 mm, ranging from 0.2 mm to 0.4 mm. In conclusion, high precision, high-field, 1.5 T MRI guided radiotherapy is clinically feasible.
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